Coincidence Measurement of Residue, Neutrons, and Light Charged Particles in a Spallation Experiment

Spallation reactions are important due to their applications in various fields such as astrophysics, neutron sources, accelerator driven systems, and production of radioactive beams. To improve our understanding of the spallation mechanism a complete experiment, called SPALADIN, has been proposed, w...

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Main Authors: Pietri, S, Aumann, T, Bacri, C-O, Benlliure, J, Bohmer, M, Boudard, A, Combet, M, Ducret, J-E, Gernhauser, R, Johansson, H, Kezzar, K, Lafriakh, A, Fevre, A Le, Lukasik, J, Gentil, E Le, Leray, S, Muller, W F J, Rejmund, F, Schwarz, C
Format: Conference Proceeding
Language:English
Subjects:
ASTROPHYSICS
CARBON 12
CHARGED PARTICLES
EVAPORATION MODEL
EXCITATION
GEV RANGE
IRON 56
MAGNETS
NEUTRON SOURCES
NEUTRONS
NUCLEAR DECAY
NUCLEAR PHYSICS AND RADIATION PHYSICS
PROTON REACTIONS
PROTON-NUCLEON INTERACTIONS
SPALLATION
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Summary:Spallation reactions are important due to their applications in various fields such as astrophysics, neutron sources, accelerator driven systems, and production of radioactive beams. To improve our understanding of the spallation mechanism a complete experiment, called SPALADIN, has been proposed, which aims at measuring as exclusively as possible the final states of the spallation reaction. This experiment has been performed at GSI using the spallation reactions 56Fe+p and 12C+p in reverse kinematics at 1 A GeV. The detection of the evaporation residues is performed with the ALADIN magnet and various detectors. The detection in coincidence of all the characteristics (type and energy) of the evaporation particles (neutrons and charged ones) and of the heavy residue should permit the reconstruction of the remnant prior to evaporation in mass, charge, and excitation energy. It will then be possible to test the modelisation of the first stage of the reaction. Furthermore it will allow study of the models describing the various decay modes of the primary residue like evaporation or Fermi break-up mechanisms for the lighter systems independently of the models of the first stage of the spallation reaction.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.1945124